The rates of reaction between hydrochloric acid and magnesium must be studied when using diverse concentrations. Basically, one of the most common ways to make this important chemical reaction can both effective and less efficient, and everything depends on lower and higher concentrations of both components: hydrochloric acid and magnesium. Other factors that may affect final results include a surface area and temperature level, as they may make this reaction both slower and faster.
Different catalysts also make it faster even without participating in it. Higher concentration of basic components make it faster too, and the more particles, the higher the chance of collisions. Another rule that should be remembered is that the more collisions, the faster the reaction. However, this basic chemical reaction becomes slower when it involves low concentrations and less of every particle. So, the smaller the number of its particles, the lower your chance of having collisions.
Low concentrations of key elements make this reaction slower, so if you use a big mass of magnesium with a low concentration of hydrochloric acid, you’ll end up with the magnesium that isn’t broken down completely. It happens because hydrochloric acid is used up. On the contrary, if you use its high concentration and a small mass of magnesium, you’ll end up with a leftover of hydrochloric acid while the entire magnesium will be broken down.
When using magnesium ribbons and hydrochloric acid, you should do some investigation to learn how long it takes for them to be eaten by this acid. Ensure that you know all the basic facts involved to understand with what you will work. Magnesium is a grey and light metallic chemical element, and it’s very reactive, so it can produce many vigorous chemical reactions when combined with acids. Another interesting fact is that magnesium is the lightest of the most popular metals, so it’s often used on flares, alloys, fireworks, and others as this chemical burns in the air with a bright light. It can react with the steam and release hydrogen too.
Finally, hydrochloric acid is a chemical solution of one acidic gas in the water, and it’s strong, corrosive, and monobasic. Just like other acids, this chemical releases hydrogen ions when being added to specific metals and water, and it’s often combined with magnesium.
The rates of reaction between hydrochloric acid and magnesium must be studied when using diverse concentrations. Basically, one of the most common ways to make this important chemical reaction can both effective and less efficient, and everything depends on lower and higher concentrations of both components: hydrochloric acid and magnesium.